View clinical trials related to Out-of-hospital Cardiac Arrest.
Filter by:The Target Temperature Management trial 2 (TTM2) is an international multi-center study, that randomize patients with OHCA of a presumed cardiac or unknown cause to target temperature management at 33°C or normothermia but avoiding fever (37.8°C) for the first 24 hours after the OHCA. The TTM2 study (clinicaltrials.gov Identifier NCT02908308) includes a detailed follow-up of functional outcome, health-related quality of life and neurocognitive function at 6 and 24 months post-arrest. This protocol describes a sub-study within the TTM2 trial that specifically focus on physical activity among the OHCA survivors.
The primary aim of this study is to investigate the feasibility and complications of inserting a REBOA-catheter to patients suffering from non-traumatic out-of-hospital cardiac arrest, by anesthesiologist working in the pre-hospital setting. The study will include patients in the catchment population of St. Olavs University Hospital, Trondheim area, Norway. The REBOA technique (resuscitative balloon occlusion of the aorta) is a well-known treatment used on other indications, both in-hospital and pre-hospital. It has also been utilized in several animal studies on non-traumatic cardiac arrest and has shown to augment myocardial and cerebral perfusion during cardio-pulmonary resuscitation. There are no systematic studies on humans with REBOA in non-traumatic cardiac arrest. The study will also investigate the time needed to perform a REBOA procedure in cardiac arrest patients receiving advanced cardiac life support. This additional treatment might contribute to increase the survival rate of cardiac arrest patients.
Out of hospital cardiac arrest is associated with a poor prognosis. The aim of this study is to provide a better understanding of perturbations of iron metabolism after cardiac arrest and to analyze the impact on clinical centered outcome.
The study is aimed to assess (a) the incidence of hyperoxia at the point of return of spontaneous circulation (ROSC) and (b) the role of arterial blood oxygen partial pressure to brain oxygenation during out-of-hospital cardiac arrest. 80 adult patients will be recruited in a physician staffed helicopter emergency medical services. Brain regional oxygen saturation and invasive blood pressure are monitored until hospital admission and arterial blood gases are analyzed immediately when the unit arrives to the patient and again at the time of ROSC.
In this clinical study, a total of 1500 patients with out-of-hospital cardiac arrest in Seattle/King County will be enrolled. This will be a randomized clinical trial and patients will receive either two different doses of IV sodium nitrite (45 mg or 60 mg) or placebo during resuscitation in the field by paramedics. The primary outcome will be proportion of patients surviving to hospital admission.
Early-onset pneumonia after out-of-hospital cardiac arrest is frequent. An association between early-onset pneumonia and an increase in morbidity has been reported in this population. The diagnosis of early-onset pneumonia inpatients with out-of-hospital cardiac arrest may be challenging as diagnosis criteria are unspecific in this setting. On the other hand some studies have reported an association between early antibiotics and better prognosis in patients with out-of-hospital cardiac arrest suggesting that early diagnosis and treatment of pneumonia would benefit to patients. Nonetheless, adminitration of antibiotics to any patients with out-of-hospital cardiac arrest would expose to antibiotic patients without infection and woould participate to increase in antibiotic resistance. Therefore, the PP-ACR study aims to evaluate the impact of a diagnosis algorithm including blinded sampling protected brushes on early-onset pneumonia treatment and patient prognosis after out-of-hospital cardiac arrest.
The study is designed as a pilot, open-label study to investigate the feasibility and safety of selective cerebral hypothermia in OHCA patients receiving ECPR.
Steroid use could be considered for patients with weaker adrenal function among those with post-cardiac arrest (CA) return of spontaneous circulation (ROSC), according to the former study. This finding is consistent with the medical background of this present study. This study will be the first to investigate these additional drugs of injection and associated prognosis in cardiac arrest (CA) patients outside the hospital, providing significant basic data.
Reliable data on stent thrombosis (ST) in comatose out of hospital cardiac arrest (OHCA) survivors is lacking. In comatose OHCA survivors suspicion of ST can be made with precise clinical monitoring of the patient with definite confirmation being possible only by coronary angiography or autopsy of deceased patients. However in addition to definite ST which can be confirmed using current protocols, additional ST which are clinically silent are plausible. These could be identified only by systematic coronary angiography of all OHCA survivors or by autopsy of deceased patients. Collectively with definite ST confirmed by coronary angiography upon clinical suspicion the incidence of all forms of ST in survivors of OHCA treated with PCI and hypothermia could be obtained. Consecutive comatose survivors of OHCA treated with percutaneous coronary intervention (PCI) and hypothermia will be included. All study participants will receive treatment per our established clinical protocol and will be followed for 10 days. In all patients in whom clinical suspicion of ST will be made immediate coronary angiography and if necessary PCI will be carried out. In all patients that will die in the observed period of 10 days autopsy will be performed. Survivors however will have an additional control coronary angiography on 10th day after admission, to assess presence of clinically silent ST. We expect that the incidence of true definitive ST in comatose OHCA survivors treated with urgent PCI with stenting and hypothermia is greater than one, which is confirmed on the basis of clinical suspicion by angiography or later with autopsy.
In patients with ST-elevation myocardial infarction (STEMI) undergoing percutaneous coronary angioplasty (PCI) P2Y12 receptor (P2Y12r) inhibition should be achieved as soon as possible. Resuscitated STEMI-patients receiving targeted temperature management (TTM, therapeutic hypothermia) after cardiac arrest, however, show deteriorated and delayed early response to available oral P2Y12r inhibitors. Therapeutic hypothermia attenuates the drugs' effectiveness by reducing its gastrointestinal absorption and metabolic activation. Acute stent thrombosis is 5-fold increased after angioplasty following resuscitated cardiac arrest because of insufficient early platelet suppression. Thus, aggressive antiplatelet strategies are needed to achieve optimal platelet suppression during PCI in those patients. The first intravenous P2Y12r inhibitor, cangrelor, has recently received marketing authorization for the acute treatment of STEMI. We hypothesize that add-on antiplatelet therapy with intravenous Cangrelor on-top of standard dual anti platelet therapy (DAPT) with Prasugrel or Ticagrelor is superior to standard antiplatelet therapy alone in terms of suppressing ADP-dependent platelet activation in resuscitated STEMI-patients receiving TTM.